AI Article Synopsis
- Polymorphonuclear neutrophils (PMNs) are crucial immune cells that primarily fight bacterial infections through processes like phagocytosis and producing reactive oxygen species (ROS), but recent studies reveal their more complex roles in health and disease.
- Human mesenchymal stromal/stem cells (MSCs) significantly affect PMN behavior by preventing their programmed cell death, adjusting their activation levels, and influencing various functions such as migration and NET formation, with these effects varying based on the condition of PMNs and the MSCs.
- The interaction between PMNs and MSCs is context-dependent, as healthy MSCs tend to limit PMN activity while MSCs from cancer patients can enhance it, emphasizing the need to understand
Article Abstract
Polymorphonuclear neutrophils (PMNs), the predominant immune cell type in humans, have long been known as first-line effector cells against bacterial infections mainly through phagocytosis and production of reactive oxygen species (ROS). However, recent research has unveiled novel and pivotal roles of these abundant but short-lived granulocytes in health and disease. Human mesenchymal stromal/stem cells (MSCs), renowned for their regenerative properties and modulation of T lymphocytes from effector to regulatory phenotypes, exhibit complex and context-dependent interactions with PMNs. Regardless of species or source, MSCs strongly abrogate PMN apoptosis, a critical determinant of PMN function, except if PMNs are highly stimulated. MSCs also have the capacity to fine-tune PMN activation, particularly in terms of CD11b expression and phagocytosis. Moreover, MSCs can modulate numerous other PMN functions, spanning migration, ROS production, and neutrophil extracellular trap (NET) formation/NETosis, but directionality is remarkably dependent on the underlying context: in normal nondiseased conditions, MSCs enhance PMN migration and ROS production, whereas in inflammatory conditions, MSCs reduce both these functions and NETosis. Furthermore, the state of the MSCs themselves, whether isolated from diseased or healthy donors, and the specific secreted products and molecules, can impact interactions with PMNs; while healthy MSCs prevent PMN infiltration and NETosis, MSCs isolated from patients with cancer promote these functions. This comprehensive analysis highlights the intricate interplay between PMNs and MSCs and its profound relevance in healthy and pathological conditions, shedding light on how to best strategize the use of MSCs in the expanding list of diseases with PMN involvement.
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